Update broken references to image assets
[chromium-blink-merge.git] / chrome / browser / extensions / display_info_provider_chromeos.cc
blob68fcecf210bfef38a53adc8609073a413838ea2e
1 // Copyright 2014 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
5 #include "chrome/browser/extensions/display_info_provider_chromeos.h"
7 #include "ash/display/display_manager.h"
8 #include "ash/display/window_tree_host_manager.h"
9 #include "ash/shell.h"
10 #include "base/strings/string_number_conversions.h"
11 #include "extensions/common/api/system_display.h"
12 #include "ui/gfx/display.h"
13 #include "ui/gfx/geometry/point.h"
14 #include "ui/gfx/geometry/rect.h"
16 using ash::DisplayManager;
18 namespace extensions {
20 using api::system_display::Bounds;
21 using api::system_display::DisplayUnitInfo;
22 using api::system_display::DisplayProperties;
23 using api::system_display::Insets;
25 namespace {
27 // Maximum allowed bounds origin absolute value.
28 const int kMaxBoundsOrigin = 200 * 1000;
30 // Checks if the given integer value is valid display rotation in degrees.
31 bool IsValidRotationValue(int rotation) {
32 return rotation == 0 || rotation == 90 || rotation == 180 || rotation == 270;
35 // Converts integer integer value in degrees to Rotation enum value.
36 gfx::Display::Rotation DegreesToRotation(int degrees) {
37 DCHECK(IsValidRotationValue(degrees));
38 switch (degrees) {
39 case 0:
40 return gfx::Display::ROTATE_0;
41 case 90:
42 return gfx::Display::ROTATE_90;
43 case 180:
44 return gfx::Display::ROTATE_180;
45 case 270:
46 return gfx::Display::ROTATE_270;
47 default:
48 return gfx::Display::ROTATE_0;
52 // Checks if the given point is over the radius vector described by it's end
53 // point |vector|. The point is over a vector if it's on its positive (left)
54 // side. The method sees a point on the same line as the vector as being over
55 // the vector.
56 bool PointIsOverRadiusVector(const gfx::Point& point,
57 const gfx::Point& vector) {
58 // |point| is left of |vector| if its radius vector's scalar product with a
59 // vector orthogonal (and facing the positive side) to |vector| is positive.
61 // An orthogonal vector of (a, b) is (b, -a), as the scalar product of these
62 // two is 0.
63 // So, (x, y) is over (a, b) if x * b + y * (-a) >= 0, which is equivalent to
64 // x * b >= y * a.
65 return static_cast<int64>(point.x()) * static_cast<int64>(vector.y()) >=
66 static_cast<int64>(point.y()) * static_cast<int64>(vector.x());
69 // Created ash::DisplayLayout value for |rectangle| compared to the |reference|
70 // rectangle.
71 // The layout consists of two values:
72 // - position: Whether the rectangle is positioned left, right, over or under
73 // the reference.
74 // - offset: The rectangle's offset from the reference origin along the axis
75 // opposite the position direction (if the rectangle is left or right along
76 // y-axis, otherwise along x-axis).
77 // The rectangle's position is calculated by dividing the space in areas defined
78 // by the |reference|'s diagonals and finding the area |rectangle|'s center
79 // point belongs. If the |rectangle| in the calculated layout does not share a
80 // part of the bounds with the |reference|, the |rectangle| position in set to
81 // the more suitable neighboring position (e.g. if |rectangle| is completely
82 // over the |reference| top bound, it will be set to TOP) and the layout is
83 // recalculated with the new position. This is to handle case where the
84 // rectangle shares an edge with the reference, but it's center is not in the
85 // same area as the reference's edge, e.g.
87 // +---------------------+
88 // | |
89 // | REFERENCE |
90 // | |
91 // | |
92 // +---------------------+
93 // +-------------------------------------------------+
94 // | RECTANGLE x |
95 // +-------------------------------------------------+
97 // The rectangle shares an egde with the reference's bottom edge, but it's
98 // center point is in the left area.
99 ash::DisplayLayout GetLayoutForRectangles(const gfx::Rect& reference,
100 const gfx::Rect& rectangle) {
101 // Translate coordinate system so origin is in the reference's top left point
102 // (so the reference's down-diagonal vector starts in the (0, 0)) and scale it
103 // up by two (to avoid division when calculating the rectangle's center
104 // point).
105 gfx::Point center(2 * (rectangle.x() - reference.x()) + rectangle.width(),
106 2 * (rectangle.y() - reference.y()) + rectangle.height());
107 gfx::Point down_diag(2 * reference.width(), 2 * reference.height());
109 bool is_top_right = PointIsOverRadiusVector(center, down_diag);
111 // Translate the coordinating system again, so the bottom right point of the
112 // reference is origin (so the references up-diagonal starts at (0, 0)).
113 // Note that the coordinate system is scaled by 2.
114 center.Offset(0, -2 * reference.height());
115 // Choose the vector orientation so the points on the diagonal are considered
116 // to be left.
117 gfx::Point up_diag(-2 * reference.width(), 2 * reference.height());
119 bool is_bottom_right = PointIsOverRadiusVector(center, up_diag);
121 ash::DisplayLayout::Position position;
122 if (is_top_right) {
123 position =
124 is_bottom_right ? ash::DisplayLayout::RIGHT : ash::DisplayLayout::TOP;
125 } else {
126 position =
127 is_bottom_right ? ash::DisplayLayout::BOTTOM : ash::DisplayLayout::LEFT;
130 // If the rectangle with the calculated position would not have common side
131 // with the reference, try to position it so it shares another edge with the
132 // reference.
133 if (is_top_right == is_bottom_right) {
134 if (rectangle.y() > reference.y() + reference.height()) {
135 // The rectangle is left or right, but completely under the reference.
136 position = ash::DisplayLayout::BOTTOM;
137 } else if (rectangle.y() + rectangle.height() < reference.y()) {
138 // The rectangle is left or right, but completely over the reference.
139 position = ash::DisplayLayout::TOP;
141 } else {
142 if (rectangle.x() > reference.x() + reference.width()) {
143 // The rectangle is over or under, but completely right of the reference.
144 position = ash::DisplayLayout::RIGHT;
145 } else if (rectangle.x() + rectangle.width() < reference.x()) {
146 // The rectangle is over or under, but completely left of the reference.
147 position = ash::DisplayLayout::LEFT;
151 if (position == ash::DisplayLayout::LEFT ||
152 position == ash::DisplayLayout::RIGHT) {
153 return ash::DisplayLayout::FromInts(position, rectangle.y());
154 } else {
155 return ash::DisplayLayout::FromInts(position, rectangle.x());
159 // Updates the display layout for the target display in reference to the primary
160 // display.
161 void UpdateDisplayLayout(const gfx::Rect& primary_display_bounds,
162 int primary_display_id,
163 const gfx::Rect& target_display_bounds,
164 int target_display_id) {
165 ash::DisplayLayout layout =
166 GetLayoutForRectangles(primary_display_bounds, target_display_bounds);
167 ash::Shell::GetInstance()->display_manager()->SetLayoutForCurrentDisplays(
168 layout);
171 // Validates that parameters passed to the SetInfo function are valid for the
172 // desired display and the current display manager state.
173 // Returns whether the parameters are valid. On failure |error| is set to the
174 // error message.
175 bool ValidateParamsForDisplay(const DisplayProperties& info,
176 const gfx::Display& display,
177 DisplayManager* display_manager,
178 int64 primary_display_id,
179 std::string* error) {
180 bool is_primary = display.id() == primary_display_id ||
181 (info.is_primary && *info.is_primary);
183 // If mirroring source id is set, a display with the given id should exist,
184 // and if should not be the same as the target display's id.
185 if (info.mirroring_source_id && !info.mirroring_source_id->empty()) {
186 int64 mirroring_id;
187 if (!base::StringToInt64(*info.mirroring_source_id, &mirroring_id) ||
188 display_manager->GetDisplayForId(mirroring_id).id() ==
189 gfx::Display::kInvalidDisplayID) {
190 *error = "Display " + *info.mirroring_source_id + " not found.";
191 return false;
194 if (*info.mirroring_source_id == base::Int64ToString(display.id())) {
195 *error = "Not allowed to mirror self.";
196 return false;
200 // If mirroring source parameter is specified, no other parameter should be
201 // set as when the mirroring is applied the display list could change.
202 if (info.mirroring_source_id &&
203 (info.is_primary || info.bounds_origin_x || info.bounds_origin_y ||
204 info.rotation || info.overscan)) {
205 *error = "No other parameter should be set alongside mirroringSourceId.";
206 return false;
209 // The bounds cannot be changed for the primary display and should be inside
210 // a reasonable bounds. Note that the display is considered primary if the
211 // info has 'isPrimary' parameter set, as this will be applied before bounds
212 // origin changes.
213 if (info.bounds_origin_x || info.bounds_origin_y) {
214 if (is_primary) {
215 *error = "Bounds origin not allowed for the primary display.";
216 return false;
218 if (info.bounds_origin_x && (*info.bounds_origin_x > kMaxBoundsOrigin ||
219 *info.bounds_origin_x < -kMaxBoundsOrigin)) {
220 *error = "Bounds origin x out of bounds.";
221 return false;
223 if (info.bounds_origin_y && (*info.bounds_origin_y > kMaxBoundsOrigin ||
224 *info.bounds_origin_y < -kMaxBoundsOrigin)) {
225 *error = "Bounds origin y out of bounds.";
226 return false;
230 // Verify the rotation value is valid.
231 if (info.rotation && !IsValidRotationValue(*info.rotation)) {
232 *error = "Invalid rotation.";
233 return false;
236 // Overscan cannot be changed for the internal display, and should be at most
237 // half of the screen size.
238 if (info.overscan) {
239 if (display.IsInternal()) {
240 *error = "Overscan changes not allowed for the internal monitor.";
241 return false;
244 if (info.overscan->left < 0 || info.overscan->top < 0 ||
245 info.overscan->right < 0 || info.overscan->bottom < 0) {
246 *error = "Negative overscan not allowed.";
247 return false;
250 const gfx::Insets overscan =
251 display_manager->GetOverscanInsets(display.id());
252 int screen_width = display.bounds().width() + overscan.width();
253 int screen_height = display.bounds().height() + overscan.height();
255 if ((info.overscan->left + info.overscan->right) * 2 > screen_width) {
256 *error = "Horizontal overscan is more than half of the screen width.";
257 return false;
260 if ((info.overscan->top + info.overscan->bottom) * 2 > screen_height) {
261 *error = "Vertical overscan is more than half of the screen height.";
262 return false;
265 return true;
268 // Gets the display with the provided string id.
269 gfx::Display GetTargetDisplay(const std::string& display_id_str,
270 DisplayManager* manager) {
271 int64 display_id;
272 if (!base::StringToInt64(display_id_str, &display_id)) {
273 // This should return invalid display.
274 return gfx::Display();
276 return manager->GetDisplayForId(display_id);
279 } // namespace
281 DisplayInfoProviderChromeOS::DisplayInfoProviderChromeOS() {
284 DisplayInfoProviderChromeOS::~DisplayInfoProviderChromeOS() {
287 bool DisplayInfoProviderChromeOS::SetInfo(const std::string& display_id_str,
288 const DisplayProperties& info,
289 std::string* error) {
290 DisplayManager* display_manager =
291 ash::Shell::GetInstance()->display_manager();
292 DCHECK(display_manager);
293 ash::WindowTreeHostManager* window_tree_host_manager =
294 ash::Shell::GetInstance()->window_tree_host_manager();
295 DCHECK(window_tree_host_manager);
297 const gfx::Display target = GetTargetDisplay(display_id_str, display_manager);
299 if (target.id() == gfx::Display::kInvalidDisplayID) {
300 *error = "Display not found.";
301 return false;
304 int64 display_id = target.id();
305 // TODO(scottmg): Native is wrong http://crbug.com/133312
306 const gfx::Display& primary =
307 gfx::Screen::GetNativeScreen()->GetPrimaryDisplay();
309 if (!ValidateParamsForDisplay(
310 info, target, display_manager, primary.id(), error)) {
311 return false;
314 // Process 'isPrimary' parameter.
315 if (info.is_primary && *info.is_primary && target.id() != primary.id())
316 window_tree_host_manager->SetPrimaryDisplayId(display_id);
318 // Process 'mirroringSourceId' parameter.
319 if (info.mirroring_source_id &&
320 info.mirroring_source_id->empty() == display_manager->IsInMirrorMode()) {
321 window_tree_host_manager->ToggleMirrorMode();
324 // Process 'overscan' parameter.
325 if (info.overscan) {
326 display_manager->SetOverscanInsets(display_id,
327 gfx::Insets(info.overscan->top,
328 info.overscan->left,
329 info.overscan->bottom,
330 info.overscan->right));
333 // Process 'rotation' parameter.
334 if (info.rotation) {
335 display_manager->SetDisplayRotation(display_id,
336 DegreesToRotation(*info.rotation),
337 gfx::Display::ROTATION_SOURCE_ACTIVE);
340 // Process new display origin parameters.
341 gfx::Point new_bounds_origin = target.bounds().origin();
342 if (info.bounds_origin_x)
343 new_bounds_origin.set_x(*info.bounds_origin_x);
344 if (info.bounds_origin_y)
345 new_bounds_origin.set_y(*info.bounds_origin_y);
347 if (new_bounds_origin != target.bounds().origin()) {
348 gfx::Rect target_bounds = target.bounds();
349 target_bounds.Offset(new_bounds_origin.x() - target.bounds().x(),
350 new_bounds_origin.y() - target.bounds().y());
351 UpdateDisplayLayout(
352 primary.bounds(), primary.id(), target_bounds, target.id());
355 return true;
358 void DisplayInfoProviderChromeOS::UpdateDisplayUnitInfoForPlatform(
359 const gfx::Display& display,
360 extensions::api::system_display::DisplayUnitInfo* unit) {
361 ash::DisplayManager* display_manager =
362 ash::Shell::GetInstance()->display_manager();
363 unit->name = display_manager->GetDisplayNameForId(display.id());
364 if (display_manager->IsInMirrorMode()) {
365 unit->mirroring_source_id =
366 base::Int64ToString(display_manager->mirroring_display_id());
369 // TODO(hshi): determine the DPI of the screen.
370 const float kDpi96 = 96.0;
372 const float dpi = display.device_scale_factor() * kDpi96;
373 unit->dpi_x = dpi;
374 unit->dpi_y = dpi;
376 const gfx::Insets overscan_insets =
377 display_manager->GetOverscanInsets(display.id());
378 unit->overscan.left = overscan_insets.left();
379 unit->overscan.top = overscan_insets.top();
380 unit->overscan.right = overscan_insets.right();
381 unit->overscan.bottom = overscan_insets.bottom();
384 gfx::Screen* DisplayInfoProviderChromeOS::GetActiveScreen() {
385 return ash::Shell::GetScreen();
388 void DisplayInfoProviderChromeOS::EnableUnifiedDesktop(bool enable) {
389 ash::Shell::GetInstance()->display_manager()->SetUnifiedDesktopEnabled(
390 enable);
393 // static
394 DisplayInfoProvider* DisplayInfoProvider::Create() {
395 return new DisplayInfoProviderChromeOS();
398 } // namespace extensions